frsj8112

I have two Toki pcbs in storage, both with sprite errors. I saw a video from lukemorse1 (who actually inspired me to start repairing arcade pcbs) on youtube where he worked on a Toki pcb, also with sprite errors.

Here’s how the error on board #1 looked like:

So there are blocks surrounding the sprites.

From Luke’s video (https://youtu.be/Czdt_yTNRTs) I identified the area responsible for sprite handling and I quickly found a 74LS273 with a stuck output at pin 19:

Checking with the multimeter, I found that this pin was almost shorted to ground:

I quickly desoldered the IC and tested it with my VP-398

Replacing it with a working 74LS273 made the sprites appear as they should:

So a big thanks to lukemorse1 and also as always to caius for always helping out 🙂

I had more Data East pcb’s around so I could test the bottom ROM board with one of those CPU boards and it was also not working. So I started pushing the EPROMs in their sockets and after that the game booted up.

So now I tested the ROM board with it’s original CPU board and game booted but the screen was almost completely black apart from some graphical elements like the energy bar.

After visually going over the CPU board I found that one of the custom ASIC L7B0072 had a crack in the center of it.

I had a broken Midnight Resistance board (not the previous repair) that had this ASIC, so I opted to transplant it over to the Robocop board.

I noticed that the top of the ASIC had a brownish discoloration, but I didn’t know if it was toast or not, so I desoldered it with my hot air station and soldered it onto the Robocop board.

Confirmed that there were no shorted pins on the ASIC and booted the game, but unfortunately the transplant did not help. Some graphics appeared, but mostly scrambled characters and when coining up and pushing start, the game reset. (forgot to take a picture)

After having a conversation with caius (thanks again for all your advice) we opted to do another transplant but with a better looking ASIC.

Redid the procedure, hot air station to remove the ASICs and then soldering again and lo and behold, the game has good looking graphics once again 🙂

But I quickly noticed that there were no audio at all. Using my audioprobe I found that there were music been generated by the YM3014 at 4M and FX from the YM3014 at 3M and then going to the OP-AMP 3403 at 4N

Nothing came out of the 3403, so I eventually found that there were no +12V input on pin 4 of the 3403. Checked the JAMMA edge and found a broken track. I guess that the operator had some form of voltage measuring device and somehow broke the track at some point. I soldered a little metal wire to bridge the gap and booted the game again.

Now audio could be heard for a short second and then silence again.

I eventually found a shorted capacitor at

After replacing the capacitor the audio was loud and clear again. Job done 🙂

It was a little bit dirty, but still in good nick. No previous repair work and no broken traces.

First startup showed that the game was stuck in watchdog, so program code was not loaded correctly by the main 68000 CPU. But sometimes it would take longer to reset the watchdog and sometimes it also shouted out one of the speech samples.

So I first took out the program ROMs, shown below, and re-inserted them:

Now the game booted into ROM/RAM test. The screen is a bit garbled, but I could see when comparing to the test screen in MAME, that ROM6 was reported as BAD

I first verified the EPROMs against MAME and they were ok. So unfortunately there was a fault in one of the MASK ROMs. I had a Salamander board since before, so I just stuck the MASK ROMs from that pcb into this one to see if it booted up and sure enough it worked. The MASK ROM printed with 6108 was indeed not working.

As this is a MASK ROM, 1Mbit 28-pin, and not a standard EPROM, I remembered that system11 made a blog post about converting Salamander to the japanese version of Life Force. I have made that conversion as well, and still had some of the pcbs and flash roms.